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Authors

1. Joyce Kimutai, Grantham Institute, Imperial College London, UK

2. Dieudonne Nsadisa Faka, The Organisation of African, Caribbean and Pacific States, Brussels, Belgium

3. Prosper Ayabagabo, Rwanda Meteorology Agency, Kigali, Rwanda

4. Clair Barnes, Grantham Institute, Imperial College London, UK

5. Mariam Zachariah, Grantham Institute, Imperial College, London, UK

6. Izidine Pinto, Royal Netherlands Meteorological Institute (KNMI), De Bilt, The Netherlands

7. Gerbrand Koren, Copernicus Institute of Sustainable Development, Utrecht University, Utrecht, the Netherlands

8. Maja Vahlberg, Red Cross Red Crescent Climate Centre, The Hague, the Netherlands

9. Roop Singh, Red Cross Red Crescent Climate Centre, The Hague, the Netherlands

10. Dorothy Heinrich, Red Cross Red Crescent Climate Centre, The Hague, the Netherlands

11. Emmanuel Raju, Department of Public Health, Global Health Section & Copenhagen Centre for Disaster Research, University of Copenhagen, Denmark

12. Lisa Thalheimer, United Nations University, Institute for Environment and Human Security, Bonn, Germany

13. Sajanika Sivanu, Red Cross Red Crescent Climate Centre, The Hague, the Netherlands

14. Friederike Otto, Grantham Institute, Imperial College London, UK

Reviewers
Sjoukje Philip, Royal Netherlands Meteorological Institute (KNMI), De Bilt, The Netherlands

Guigma Kiswendsida, Red Cross Red Crescent Climate Centre, The Hague, the Netherlands Leonard Nioulé, International Federation of Red Cross and Red Crescent Societies, Goma, North Kivu, Democratic Republic of Congo

Main findings

• We urgently need robust climate data and research in this highly vulnerable region. The scarcity and inaccessibility of meteorological data, as well as inadequate performance of climate models meant we couldn’t confidently evaluate the role of climate change in the rainfall that led to flooding. This limitation applies also to information on the impact, vulnerability, and exposure of people to heavy rainfall, a critical gap that has been highlighted by numerous studies.

• The death toll and destruction from the floods in South Kivu, DRC and western Rwanda was extreme, and reflects the high vulnerability and exposure of people to flooding in this region.

• The history of conflict in the region and instability has contributed to underdevelopment and a lack of basic services and infrastructure. The combination of protracted conflict, displacement, under-development, poverty and land degradation, creates a recipe for disaster when an extreme weather event strikes, making it more difficult for people to cope and bounce back from the disaster.

• The conflict and violent clashes between state and non-state groups have led to large-scale displacement in South Kivu, DRC and western Rwanda in 2023, with displaced populations being more susceptible to flood and landslide impacts due to their living conditions (e.g. temporary shelters) and precarious situation. The floods further displaced thousands of people, destroyed water, sanitation and hygiene infrastructure, damaged agricultural fields leading to increased risk of food insecurity, waterborne illnesses and protection issues after the initial recovery phase ends.

• Deforestation in order to clear land for settlements, agriculture, and mining, has resulted in widespread soil erosion around Lake Kivu, contributing to an increasing risk of landslides. A lack of capacity of the government to enforce limits or regulation on land degrading practices.

• While the DRC’s mineral reserves are critical for global manufacturing and the transition to a low carbon economy and its forests act as a key carbon sink for the world’s carbon polluters, the country continues to suffer from the impacts of extreme weather which are amplified by mining activities that contribute to land and water degradation, labour abuses, and conflict.

• We examined three different combinations of spatial and temporal extent to look at heavy rainfall events in the region of the floods to see whether there are trends in either of these in the different available data products. In different datasets there are trends in seasonal and short term heavy rain in both directions (increases and decreases), as well as data showing no trend.

• Climate models show no significant trends in heavy precipitation over the region since the preindustrial climate, but an increase in short term heavy rainfall for a 0.8C warmer world (2C global warming). However, this is no indication that there is no trend, as the uncertainty is very high.

• The increase in heavy precipitation with future warming is in line with projections from the IPCC over the whole of central and eastern Africa, which also show an increase in heavy rainfall.

• While the scarcity of data does not allow us to draw any conclusions on the role of climate change in the floods today, the potential for a further increase in heavy rainfall in this flood and landslide prone area highlights an urgent need to reduce vulnerability

• Better observations, improved access to meteorological data and more research are urgently needed in the region to improve early warning systems.

 

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